The slope and scatter of the star forming main sequence at z~5 : reconciling observations with simulations

Abstract

Galaxies exhibit a tight correlation between their star-formation rate and stellar mass over a wide redshift range known as the star-forming main sequence (SFMS). With JWST, we can now investigate the SFMS at high redshifts down to masses of 106 M, using sensitive star-formation rate tracers such as Hα emission -- which allow us to probe the variability in star formation histories. We present inferences of the SFMS based on 316 Hα-selected galaxies at z4-5 with ( M/M) = 6.4 -10.6. These galaxies were identified behind the Abell 2744 lensing cluster with NIRCam grism spectroscopy from the ``All the Little Things'' (ALT) survey. At face value, our data suggest a shallow slope of the SFMS (SFR Mα, with α=0.45). After correcting for the Hα-flux limited nature of our survey using a Bayesian framework, the slope steepens to α = 0.59+0.10-0.09, whereas current data on their own are inconclusive on the mass dependence of the scatter. These slopes differ significantly from the slope of ≈1 expected from the observed evolution of the galaxy stellar mass function and from simulations. When fixing the slope to α=1, we find evidence for a decreasing intrinsic scatter with stellar mass (from ≈ 0.5 dex at M=108 M to 0.4 dex at M=1010 M). This tension might be explained by a (combination of) luminosity-dependent SFR(Hα) calibration, a population of (mini)-quenched low-mass galaxies, or underestimated dust attenuation in high-mass galaxies. Future deep observations across facilities can quantify these processes, enabling better insights into the variability of star formation histories.

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